Coated yarn and method for manufacturing coated yarn using thermoplastic polyurethane compound

ABSTRACT

The present invention provides a coated yarn and a method for manufacturing a coated yarn having outstanding physical properties, the method comprising: collecting thermoplastic polyurethane in virgin form, or from scraps remaining after usage, for example, those used for airbag patterns in a shoe manufacturing process, or from scraps remaining after other thermoplastic polyurethane is processed; mixing the various kinds of thermoplastic polyurethane with various additives; compounding the resultant mixture using an extruder to prepare a thermoplastic polyurethane compound for a coated yarn; and coating the surface of a yarn made from polyester, nylon, spandex, etc. with the compound using an extruder.

REFERENCE TO RELATED APPLICATIONS

This is a continuation of pending International Patent Application PCT/KR2012/008801 filed on Oct. 25, 2012, which designates the United States and claims priority of Korean Patent Application No. 10-2011-0146923 filed on Dec. 30, 2011, and Korean Patent Application No. 10-2012-0114735 filed on Oct. 16, 2012, the entire contents of which are incorporated herein by reference.

FIELD OF THE INVENTION

The present invention relates to a thermoplastic polyurethane compound composition which is used to form a coating layer on the surface of yarn made of polyester, nylon, spandex or the like, and more particularly to a thermoplastic polyurethane compound composition, which is used to produce coated yarn by mixing thermoplastic polyurethane resin with additives, compounding the mixture in an extruder and coating the surface of yarn (made of polyester, nylon, spandex or the like) with the compounded thermoplastic polyurethane to form a coating layer, and to a method of producing coated yarn using the thermoplastic polyurethane compound composition.

BACKGROUND OF THE INVENTION

As is known, yarns that are used to make industrial blind or floor materials are made of polyester, nylon, spandex or the like. However, these yarns have low rigidity, and thus a coating layer is formed on the surface of the yarns. Coated yarn is produced by coating PVC or PP on the surface of yarn made of polyester, nylon, spandex or the like while passing the yarn through a coating machine, particularly the core of the coating machine, in a state in which the yarn is wound around bobbins on the shelf.

However, the coated yarn produced by the above-described method has disadvantages of low durability and abrasion resistance, as well as insufficient properties such as low mechanical strength and chemical strength. For this reason, industrial blind or floor materials made of the coated yarn cannot be used for a long period of time in industrial fields.

In addition, among prior art documents as described below, prior art document (Korean Patent Registration No. 10-0875709; hereinafter referred to “conventional technology”) discloses coated yarn produced by coating the surface of yarn with thermoplastic polyurethane and a non-slipping fabric made of the coated yarn.

However, in the case of the conventional technology, when thermoplastic polyurethane is used, productivity is reduced to the low viscosity of the thermoplastic polyurethane, and particularly, it is impossible to produce coated yarn having thin thickness. In addition, the surface of the coated yarn becomes glossy, and for this reason, an additional process for matting the surface is required.

PRIOR ART DOCUMENTS Patent Documents

Document 1: Korean Patent Laid-Open Publication No. 10-2012-0078630 (entitled “polyester yarn and production method thereof; published on Jul. 10, 2012).

Document 2: Korean Patent No. 10-0875709 (entitled “non-slipping fabric comprising thermoplastic polyurethane-coated yarn; published on Dec. 23, 2008).

Document 3: Korean Patent Laid-Open Publication No. 10-2008-0028665 (entitled “apparatus of producing PVC-coated yarn using polyester yarn; published Apr. 1, 208).

Document 4: Korean Patent No. 10-0749311 (entitled “method for producing yarn”; published on May 16, 2007).

Document 5: Korean Patent No. 10-0752272 (entitled “method for producing coated yarn having glossy and metallic feeling and dice for use in production of yarn; published on Sep. 18, 2007).

SUMMARY OF THE INVENTION

The present invention has been made in order to solve the above-described problems occurring in the prior art, and it is an object of the present invention to provide a thermoplastic polyurethane compound composition, which is used to produce a coated yarn having high durability, abrasion resistance, mechanical strength and chemical strength by mixing thermoplastic polyurethane resin with various additives, compounding the mixture in an extruder, and coating the compounded thermoplastic polyurethane on the surface of yarn (made of polyester, nylon, spandex or the like) in a conventional extruder to form a coating layer, and a method of producing coated yarn using the thermoplastic polyurethane compound composition.

Another object of the present invention is to provide a thermoplastic polyurethane compound composition for coating yarn, which can be used in a wide range of applications, including blind or floor materials, sports goods and daily necessities, and a method of producing coated yarn using the thermoplastic polyurethane compound composition.

Still another object of the present invention is to provide a thermoplastic polyurethane compound composition for coating yarn, which comprises, in addition to thermoplastic polyurethane, a thickener that can increase the viscosity of coating solution to achieve a required discharge rate (preferably, a discharge rate of 600 m/min or higher, which makes it possible to increase productivity and produce yarns having a fineness of 1,000 denier or less), and a method of producing coated yarn using the thermoplastic polyurethane compound composition.

The present invention is characterized in that a thermoplastic polyurethane compound for coating yarn is prepared by compounding a thermoplastic polyurethane with a thickener and a processing aid, the color of the thermoplastic polyurethane compound may be reproduced by adding a master batch corresponding to a desired color, and a coated yarn having a desired thickness may be produced by coating the thermoplastic polyurethane compound on the surface of yarn made of polyester, nylon, spandex or the like in a conventional extruder.

In addition, the present invention is characterized in that the thickener that is used to prepare the thermoplastic polyurethane compound for coating yarn is any one selected from among inorganic materials, including silica, talc and calcium carbonate (CaCO₃).

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 shows a process of producing a thermoplastic polyurethane compound for coating of yarn according to a preferred embodiment of the present invention by mixing thermoplastic polyurethane with various additives and compounding the mixture in an extruder.

FIG. 2 shows a process of coating a thermoplastic polyurethane compound, obtained as shown in FIG. 1, on the surface of yarn made of polyester, nylon, spandex or the like according to a preferred embodiment of the present invention.

DETAILED DESCRIPTION OF THE INVENTION

The present invention provides a thermoplastic polyurethane compound composition which is used to produce coated yarn, the composition comprising thermoplastic polyurethane and a thickener.

Hereinafter, preferred embodiments of the present invention will be described detail with reference to the accompanying drawings. In the following detailed description, exemplary embodiments for solving the technical problem of the present invention will be described. Embodiments other than the disclosed embodiments may also be contemplated according to the present invention.

The present invention provides a method capable of producing a coated yarn having excellent physical properties, the method comprising: preparing virgin thermoplastic polyurethane or collecting thermoplastic polyurethane scrap remaining after the manufacture of airbag patterns in footwear manufacturing processes or after processing of thermoplastic polyurethane; mixing the thermoplastic polyurethane with various additives; compounding the mixture in an extruder to prepare a thermoplastic polyurethane compound (hereinafter referred to as “TPU compound”) for coating yarn; and coating the TPU compound on the surface of yarn made of polyester, nylon, spandex or the like in a conventional extruder. The present invention also provides a thermoplastic polyurethane compound composition which is used to produce the coated yarn.

In the present invention, coated yarn having a desired color can be produced by adding a master batch corresponding to the desired color during production of the TPU compound for coating yarn. Moreover, a TPU compound for coating yarn, which has a desired hardness, can be prepared by controlling the content of raw material. In addition, the thickness of coated yarn can be reduced depending on the thickness of yarn made of polyester, nylon, spandex or the like.

Thus, the present invention provides a thermoplastic polyurethane compound composition, which is used to produce a coated yarn which has excellent durability and abrasion resistance and good mechanical strength and chemical strength due to the inherent physical properties of thermoplastic polyurethane, and thus can be used in a wide range of applications, including sports goods, daily necessities and industrial supplies. The present invention also provides a method of producing coated yarn using the thermoplastic polyurethane compound composition.

Hereinafter, the present invention will be described in detail with reference to preferred embodiments, but the scope of the present invention is not limited to these embodiments.

Embodiment 1

A method of producing coated yarn using thermoplastic polyurethane according to a preferred embodiment of the present invention is divided into the following two steps: a first step of preparing a TPU compound for coating yarn; and a second step of coating the surface of yarn with the TPU compound. The production method according to the present invention will now be described in further detail with reference to FIGS. 1 and 2. The first step is a step of mixing thermoplastic polyurethane with various additives and compounding the mixture in an extruder to prepare a TPU compound for coating yarn and is specifically shown in FIG. 1. The second step is a step of coating the TPU compound on the surface of yarn made of polyester, nylon, spandex or the like and is specifically shown in FIG. 2.

1. Step of Preparing TPU Compound for Coating Yarn

As shown in FIG. 1, this step comprises: 1) mixing thermoplastic polyurethane with various additives (preferably a thickener and a processing aid) and feeding the mixture into the hopper of a conventional compounding extruder; 2) melting, kneading and compounding the mixture in the cylinder of the compounding extruder at a temperature of 150˜250° C. and a pressure of 50-150 kgf; 3) cutting a coating solution (i.e., compounded thermoplastic polyurethane coating solution), discharged through the dice of the compounding extruder, in cooling water to form pellets; and 4) drying the formed thermoplastic polyurethane pellets at a temperature of 60˜80° C. for 4-6 hours and aging the dried pellets at a temperature of 30˜50° C. for 7 days or more.

Hereinafter, components that are used in the production of a TPU compound for coating yarn, that is, thermoplastic polyurethane, a thickener and a processing aid, will be described.

The thermoplastic polyurethane is a virgin thermoplastic polyurethane prepared by polymerizing aromatic isocyanate or aliphatic isocyanate with polyether polyol or polycarprolactone using short chain glycol (e.g., 1,4-butanediol) as a chain extender.

In the present invention, in addition to virgin thermoplastic polyurethane, thermoplastic polyurethane scrap remaining after the manufacture of footwear may also be used in the present invention. Specifically, either airbag scrap remaining after the processing of airbags for footwear or clear or semi-clear type thermoplastic polyurethane scrap is used.

In the present invention, a thickener is used during the preparation of a thermoplastic polyurethane coating solution in order to improve productivity and matting properties. As the thickener, silica powder or an inorganic material (e.g., talc or CaCO₃) that increases viscosity is used. The thickener that is used in the present invention may also be an alloy with a resin such as a styrene butadiene styrene (SBS) block copolymer, a styrene ethylene/butylene styrene (SEBS) resin, a polyacetal resin (POM) or a styrene acrylonitrile resin (SAN), which can impart compatibility with thermoplastic polyurethane.

In the present invention, a processing agent is also used in order to improve productivity. Specifically, the processing agent is montane wax or a fatty acid ester (C₅-C₉) with pentaerythritol.

In addition, in the present invention, an adhesive additive is used after weaving of a mesh with coated yarn. The adhesive additive is an olefin (PE, PP, EVA, etc.)-based coupling agent (containing 2-20% maleic anhydride).

Table 1 below show the results of using silica as a thickener when producing coated yarn using thermoplastic polyurethane according to the present invention.

TABLE 1 TPU Melt Flow Extru- compound index beginning sion (product (g/10 tempera- Flow viscosity work- Silica name) min) ture (° C.) 165° C. 170° C. ability content ESTANE58277 19.58 155.2 30,950 10,830 Poor 0.0 phr (Lubrizol) AK-92A-4 13.50 154.6 34,380 12,030 Good 1.5 phr AK-92A-5 8.45 156.5 40,570 14,930 Good 3.0 phr

As can be seen in Table 1 above, as the silica content increased, the melt index decreased and the flow viscosity increased, suggesting that silica showed a thickening effect. Also, it could be seen that the extrusion workability was good when the silica content was 1.5 phr or higher. Further, the product having a silica content of 3.0 phr showed good extrusion workability, but was difficult to apply, due to the occurrence of blooming.

Additionally, the product names “AK-92A-4” and “AK-92A-5” shown in Table 1 are TPU compounds for coating yarn, prepared by the composition and preparation method of the present invention. Preferably, these product names are TPU compounds for coating yarn, prepared using silica as a thickener. In addition, the product name “ESTANE58277 (Lubrizol)” shown in Table 1 is a compound for coating yarn, prepared according to the method of conventional technology.

Table 2 below shows components that are added to prepare TPU compounds (particularly “AK-92A-4” or “AK-92A-5” shown in Table 1) for coating yarn, and the composition ratio of the components.

TABLE 2 Composition of the present invention AK-92A-4 (wt %) AK-92A-5 (wt %) Footwear airbag scrap 50.0 50.0 Virgin TPU 43.0 41.5 Polyethylene-based 5.0 5.0 coupling agent Silica (thickener) 1.5 3.0 Montane wax 0.2 0.2 Fatty acid ester 0.3 0.3

Table 3 below shows a composition between the physical properties of TPU compounds (particularly “AK-92A-4” and “AK-92A-5” shown in Table 2) for coating yarn, prepared by the composition and preparation method of the present invention, and the physical properties of a compound for coating yarn (e.g., “ESTANE58277 (Lubrizol) shown in Table 1), prepared by conventional technology.

TABLE 3 Compound according to conventional TPU compounds of technology Product the present invention ESTANE58277 name AK-92A-4 AK-92A-5 (Lubrizol) Remarks TPU melt 13.5 8.45 15.2 200° C., 2.16 viscosity kgf (g/10 min) TPU flow 154.6 156.5 155.2 beginning temperature (° C.) Core yarn Polyester Polyester Polyester yarn yarn yarn TPU tensile  250 kgf/cm²  230 kgf/cm²  350 kgf/cm² strength TPU tear 110 kgf/cm 105 kgf/cm 120 kgf/cm strength TPU specific 1.20-1.21 1.20-1.21 1.21-1.22 g/cc gravity TPU 91 ± 2A 91 ± 2A 92 ± 2A Shore A hardness Minimum 0.2∅ 0.2∅ 0.4∅ PVC: 0.2∅ thickness of coated yarn Coated yarn 500-600 500-600 100-150 PVC: 600- productivity rpm/min rpm/min rpm/min 700 rpm/min Adhesive 2.5-3.0 1.5-2.0 0.5-1.0 Adhered to strength of kgf kgf kgf reflective film mesh woven (using glass with coated bead) yarn

As can be seen from the results in Table 3 above, the products (“AK-92A-4” and “AK-92A-5”) obtained using silica as a thickener showed significantly high productivity, thin thickness and good adhesive strength compared to the product (“ESTANE58277(Lubrizol)”) obtained using general TPU. Also, it can be seen that the product “AK-92A-5” had low adhesive strength due to blooming caused by an excessively high content of silica. In addition, the use of silica can also provide matting effects.

Table 4 below shows the results of using an inorganic material (e.g., talc) as a thickener.

TABLE 4 TPU Melt Flow Extru- compound index beginning sion (product (g/10 tempera- Flow viscosity work- name) min) ture (° C.) 165° C. 170° C. ability Talc ESTANE58277 19.58 155.2 30,950 10,830 Poor 0.0 phr  (Lubrizol) TC-92A-3 9.50 157.8 43,380 15,030 Good 10 phr TC-92A-6 5.65 158.5 60,550 18,880 Good 20 phr

As can be seen in Table 4 above, as the talc content increased, the melt index decreased and the flow viscosity increased, suggesting that talc showed a thickening effect. Also, it could be seen that the extrusion workability was good when the talc content was 10 phr or higher. Further, the product having a talc content of 30 phr showed good extrusion workability, but was difficult to apply, due to the occurrence of blooming.

Meanwhile, the product names “TC-92A-3” and “TC-92A-6” shown in Table 4 are TPU compounds for coating yarn, prepared by the composition and preparation method of the present invention. Preferably, these product names are TPU compounds for coating yarn, prepared using talc as a thickener. In addition, the product name “ESTANE58277 (Lubrizol)” shown in Table 4 is a compound for coating yarn, prepared according to the method of conventional technology.

Table 5 below shows components that are added to prepare TPU compounds (particularly “TC-92A-3” or “TC-92A-6” shown in Table 4) for coating yarn, and the composition ratio of the components.

TABLE 5 Composition of the present invention TC-92A-3 (wt %) TC-92A-6 (wt %) Footwear airbag scrap 40.0 40.0 Virgin TPU 44.5 34.5 Polyethylene-based 5.0 5.0 coupling agent Talc (thickener) 10.0 20.0 Montane wax 0.2 0.2 Fatty acid ester 0.3 0.3

Table 6 below shows a composition between the physical properties of TPU compounds (particularly “TC-92A-3” and “TC-92A-6” shown in Table 5) for coating yarn, prepared by the composition and preparation method of the present invention, and the physical properties of a compound for coating yarn (e.g., “ESTANE58277 (Lubrizol) shown in Table 4), prepared by conventional technology.

TABLE 6 Compound according to conventional TPU compounds of technology Product the present invention ESTANE58277 name TC-92A-3 TC-92A-6 (Lubrizol) Remarks TPU melt 9.50 5.65 15.2 200° C., 2.16 viscosity kgf (g/10 min) TPU flow 157.8 158.5 155.2 beginning temperature (° C.) Core yarn Polyester Polyester Polyester yarn yarn yarn TPU tensile  200 kgf/cm²  160 kgf/cm²  350 kgf/cm² strength TPU tear 100 kgf/cm 90 kgf/cm 120 kgf/cm strength TPU specific 1.21-1.22 1.22-1.23 1.21-1.22 g/cc gravity TPU 92 ± 2A 93 ± 2A 92 ± 2A Shore A hardness Minimum 0.2∅ 0.25∅ 0.4∅ PVC: 0.2∅ thickness of coated yarn Coated yarn 300-400 300-400 100-150 PVC: 600- productivity rpm/min rpm/min rpm/min 700 rpm/min Adhesive 1.5-2.0 1.0-1.5 0.5-1.0 Adhered to strength of kgf kgf kgf reflective film mesh woven (using glass with coated bead) yarn

As can be seen from the results in Table 6 above, the products (“TC-92A-3” and “TC-92A-6”) obtained using talc as a thickener showed high productivity and thin coated yarn thickness compared to the product (“ESTANE58277(Lubrizol)”) obtained using general TPU, but these products showed slightly low productivity and low adhesive strength compared to the products (“AK-92A-4” and “AK-92A-5”) obtained using silica as a thickener. Also, it can be seen that the product “TC-92A-6” had low adhesive strength due to blooming caused by an excessively high content of talc.

Table 7 below show the results of using polyacetal resin (POM) as a thickener when producing coated yarn using thermoplastic polyurethane according to the present invention.

TABLE 7 TPU Melt Flow Extru- compound index beginning sion (product (g/10 tempera- Flow viscosity work- POM name) min) ture (° C.) 165° C. 170° C. ability content ESTANE58277 19.58 155.2 30,950 10,830 Poor 0.0 phr  (Lubrizol) PA-95A-3 10.20 178.2 52,240 27,830 Good 10 phr PA-95A-5 6.65 185.1 63,580 37,880 Good 20 phr

As can be seen in Table 7 above, as the POM content increased, the melt index decreased and the flow viscosity increased, suggesting that POM showed a thickening effect. Also, it could be seen that the extrusion workability was good when the POM content was 10 phr or higher. Further, the product having a POM content of 10 phr showed good extrusion workability, but had hard significantly hard feeling due to increased hardness.

Additionally, the product names “PA-95A-3” and “PA-95A-5” shown in Table 7 are TPU compounds for coating yarn, prepared by the composition and preparation method of the present invention. Preferably, these product names are TPU compounds for coating yarn, prepared using polyacetal resin (POM) as a thickener. In addition, the product name “ESTANE58277 (Lubrizol)” shown in Table 7 is a compound for coating yarn, prepared according to the method of conventional technology.

Table 8 below shows components that are added to prepare TPU compounds (particularly “PA-95A-3” or “PA-95A-5” shown in Table 7) for coating yarn, and the composition ratio of the components.

TABLE 8 Composition of the present invention PA-95A-3 (wt %) PA-95A-5 (wt %) Virgin TPU 84.5 74.5 Polyethylene-based 10.0 20.0 coupling agent POM resin 5.0 5.0 Montane wax 0.2 0.2 Fatty acid ester 0.3 0.3

Table 9 below shows a composition between the physical properties of TPU compounds (particularly “PA-95A-3” and “PA-95A-5” shown in Table 8) for coating yarn, prepared by the composition and preparation method of the present invention, and the physical properties of a compound for coating yarn (e.g., “ESTANE58277 (Lubrizol) shown in Table 7), prepared by conventional technology.

TABLE 9 Compound according to conventional TPU compounds of the technology Product present invention ESTANE58277 name AK-92A-3 AK-92A-5 (Lubrizol) Remarks TPU melt 10.2 6.65 15.2 200° C., 2.16 viscosity kgf (g/10 min) TPU flow 178.2 185.1 155.2 beginning temperature (° C.) Core yarn Polyester Polyester Polyester yarn yarn yarn TPU tensile  300 kgf/cm²  250 kgf/cm²  350 kgf/cm² strength TPU tear 150 kgf/cm 160 kgf/cm 120 kgf/cm strength TPU specific 1.20-1.21 1.19-1.20 1.21-1.22 g/cc gravity TPU 95 ± 2A 97 ± 2A 92 ± 2A Shore A hardness Minimum 0.2∅ 0.2∅ 0.4∅ PVC: 0.2∅ thickness of coated yarn Coated yarn 350-450 300-400 100-150 PVC: 600- productivity rpm/min rpm/min rpm/min 700 rpm/min Adhesive 2.5-3.0 2.0-2.5 0.5-1.0 Adhered to strength of kgf kgf kgf reflective film mesh woven (using glass with coated bead) yarn

As can be seen from the results in Table 9 above, the products (“PA-95A-3” and “PA-95A-5”) obtained using POM resin as a thickener showed high productivity and thin coated yarn thickness compared to the product (“ESTANE58277(Lubrizol)”) obtained using general TPU, but these products showed slightly low productivity compared to the products obtained using silica. Also, it can be seen that the product “PA-95A-5” had high hardness due to an excessively high content of POM resin, suggesting that it would provide a fabric having significantly hard feeling.

From the results of using the thickeners as described above, it can be seen that the use of silica as a thickener showed the highest productivity and excellent matting effects, suggesting that it can provide the best product (coated yarn).

The physical properties shown in Tables 3, 6 and 9 above, including TPU melt viscosity, TPU flow beginning temperature, TPU tensile strength, TPU tear strength, TPU specific gravity and TPU hardness, are the physical properties of the TPU compound for coating yarn to be provided by the present invention.

2. Step of Producing Coated Yarn

The step of producing coated yarn is a step of coating the TPU compound on the surface of yarn (made of polyester, nylon, spandex or the like).

As shown in FIG. 2, this step comprises: 1) mixing the TPU compound for coating yarn (i.e., pellet-type thermoplastic polyurethane as described above) with a master batch corresponding to a desired color and feeding the mixture into the hopper of a yarn coating extruder; 2) melting the mixture of the TPU compound and the master batch in the cylinder of the yarn coating extruder at a temperature of 150˜250° C. and a pressure of 50-150 kgf; 3) coating the TPU compound on the surface of yarn (made of polyester, nylon, spandex or the like) passing through a nipple and a dice to produce coated yarn; and 4) winding the coated yarn around a bobbin using a winding machine.

As shown in FIG. 2, coated yarn comprising thermoplastic polyurethane according to the present invention can be obtained by coating a TPU compound (particularly, dried and aged pellet-type thermoplastic polyurethane), prepared by the preparation method and composition of the present invention, on the surface of yarn made of polyester, nylon, spandex or the like.

The thermoplastic polyurethane compound composition according to the embodiment of the present invention and the method of producing coated yarn using the thermoplastic polyurethane compound composition achieves the following effects.

First, because the thermoplastic polyurethane compound for coating yarn according to the present invention is prepared by compounding thermoplastic polyurethane with a thickener (preferably an inorganic material such as silica, talc or calcium carbonate) in an extruder, higher productivity (i.e., 3-5 times higher productivity) and excellent matting properties compared to the use of conventional thermoplastic polyurethane can be achieved in the present invention.

Second, fabric made of the coated yarn of the present invention has excellent abrasion resistance, high tensile strength and excellent waterproof properties and can show excellent thermal moldability and adhesive properties, compared to conventional fabric.

Third, because the coated yarn according to the present invention has excellent durability, abrasion resistance and mechanical strength, it can be applied to sports good, daily necessities, industrial supplies and the like. 

What is claimed is:
 1. A coated yarn comprising: a yarn core made of polyester, nylon or spandex; and a thermoplastic polyurethane compound composition coated on the yarn core, wherein the thermoplastic polyurethane compound composition comprises thermoplastic polyurethane as a base polymer, a thickener, and a processing aid, wherein the thickener is selected from the group consisting of silica, talc, calcium carbonate, and an alloy with a resin selected from a styrene butadiene styrene block copolymer, a styrene ethylene/butylene styrene resin, a polyacetal resin, and a styrene acrylonitrile resin, wherein the processing aid is selected from the group consisting of montane wax and fatty acid ester (C₅-C₉) with pentaerythritol.
 2. The coated yarn of claim 1, wherein the thermoplastic polyurethane compound composition further comprises an olefin-based coupling agent. 